KR102297448B1 - Iron core structure of electric machinery - Google Patents

Abstract

The present invention relates to an iron core structure of an electric machine installed in at least one of a stator and a rotor of the electric machine, and includes a support part that supports to maintain the shape of the iron core, and the magnetic flux is concentrated in the support part but loses magnetic flux than the support part This small is characterized in that it includes a periodontal region. Therefore, the present invention is configured to separate and couple the iron core of the electric device into the support part and the periodontal part, and reduce the loss of magnetic flux in the periodontal part where the magnetic flux is concentrated, thereby reducing the loss of the entire iron core of the electric appliance at a low price and at the same time reducing the loss of the electric equipment. It provides the effect of improving efficiency and output.

Description

IRON CORE STRUCTURE OF ELECTRIC MACHINERY

The present invention relates to an iron core structure of an electric machine, and more particularly, to an iron core structure of an electric machine installed in a stator or a rotor so that magnetic flux in the electric machine passes.

In general, an electric device collectively refers to an electric motor that receives electrical energy and converts it into mechanical energy, a generator that receives mechanical energy and converts it into electrical energy, and a transformer that converts AC voltage.

Among electric devices, an electric motor is called an electric motor, and when a conductor is placed in a magnetic field at right angles and an electric current is passed through it, electromagnetic induction is applied to generate electromagnetic force in the direction perpendicular to the magnetic field.

Such an electric motor includes an industrial electric motor or a high-speed electric motor, and as shown in FIG. 1 , a stator 100 fixed in a cylindrical shape inside a frame and wound with a coil, and the stator 100 located inside or outside the stator 100 Thus, it is divided into a rotor 200 that transmits power while rotating by an induction magnet formed around the coil.

In the stator 100 of the conventional electric motor, as shown in FIG. 1 , the yoke of the stator and the teeth of the stator are made of a single iron core 110 , and the coil 120 is wound between the teeth of the stator.

That is, a plurality of stator teeth are formed on the inner circumferential surface of the stator yoke, and the coil 120 is wound and wound in slots between the stator teeth. At this time, the stator yoke and the stator teeth are integrally formed and composed of one material, and are generally composed of a non-oriented electrical steel sheet.

In addition, the rotor 200 is formed of a single iron core 210 into which the conductive rod 220 is inserted. At this time, the rotor 200 is integrally formed and composed of one material, and is generally composed of a non-oriented electrical steel sheet.

However, when an iron core material having a low iron core loss is used to improve the efficiency of an electric motor, the price is improved and there are many difficulties until it is put into practical use.

In addition, when winding in the slot of the iron core of the conventional motor, there is a problem that the space factor of the conductor is limited depending on the shape of the tooth and the slot.

The iron core used in the conventional electric motor has a structure in which a thin iron piece is constructed using a silicon steel plate or other material and a winding is wound around a stacked iron core, or a permanent magnet is attached or inserted. It functions to stably fix the windings and permanent magnets and serves as a passage for magnetic flux.

However, in this case, if the stator or rotor iron core is integrally formed, the eddy current loss also increases, thereby reducing the efficiency of the motor.

In addition, the conventional iron core structure of the electric machine has a problem in that the winding rod is integrally formed in the body part of the electric motor, so that the winding time is too long, so the manufacturing efficiency is greatly reduced.

Republic of Korea Patent No. 10-0928554 (November 24, 2009)

The present invention has been devised to solve the above problems of the prior art, and a high-priced, low-loss material is used for a portion with a large loss due to a high magnetic flux saturation, and a low-priced iron core material is used for the other portions. An object of the present invention is to provide an iron core structure of an electric device that can reduce manufacturing costs.

In addition, another object of the present invention is to provide an iron core structure of an electric device capable of facilitating the coupling between the support and the periodontal portion and at the same time improving the bonding support between the support and the periodontal portion.

Another object of the present invention is to provide an iron core structure of an electric device capable of improving the efficiency and output of the electric device by improving the cooling performance at the joint portion between the support portion and the periodontal portion and at the same time reducing the heat generation of the electric device. do it with

In addition, another object of the present invention is to provide an iron core structure of an electric device capable of concentrating magnetic flux in the periodontal region and at the same time improving the support rigidity of the periodontal region.

Another object of the present invention is to provide an iron core structure of an electric device capable of reducing the size of the electric device by improving the space factor of the winding, thereby reducing the size of the periodontal part and reducing the expensive periodontal installation cost. The purpose.

Another object of the present invention is to provide an iron core structure of an electric device capable of improving the support rigidity of the periodontal region.

The present invention for achieving the above object is an iron core structure of an electric machine installed in at least one of a stator and a rotor of the electric machine, comprising: a support portion 10 for supporting the shape of the iron core to be maintained; And it is coupled to the support (10), the magnetic flux is concentrated, the periodontal portion (20) less magnetic flux loss than the support (10); characterized in that it comprises a.

The support part 10 of the present invention is made of iron, and the periodontal part 20 is made of a material having less magnetic flux loss than iron.

The support portion 10 and the periodontal portion 20 of the present invention are characterized in that they are coupled by fitting between the groove and the protrusion. The support portion 10 and the periodontal portion 20 of the present invention is characterized in that a spaced space for cooling is formed in the coupling portion between the groove and the protrusion.

The periodontal portion 20 of the present invention is characterized in that a slot for winding the coil is formed. The slot of the present invention is characterized in that it consists of an open shape with an open periphery. The slot of the present invention is characterized in that it consists of a closed shape with a closed periphery.

The periodontal portion 20 of the present invention is characterized in that it consists of a plurality of teeth spaced apart from the support portion 10 at equal intervals. The teeth of the present invention have some surfaces extending from each other, and the slot formed between the teeth is characterized in that the periphery is closed and closed.

As described above, the present invention is configured to separate and couple the iron core of the electric device into the support part and the periodontal part, and reduce the loss of magnetic flux in the periodontal part where the magnetic flux is concentrated, thereby reducing the loss of magnetic flux of the electric device and at the same time reducing the electric It provides the effect of improving the efficiency and output of the device.

In addition, by using a material having less loss of magnetic flux than the iron core of the support part only in the periodontal portion, it is possible to reduce the manufacturing cost of the entire iron core of the electric device.

In addition, since the support portion and the periodontal portion are coupled by the fitting of the groove and the protrusion, it is possible to facilitate the coupling between the support portion and the periodontal portion and at the same time improve the engagement support force between the support portion and the periodontal portion.

In addition, by forming a cooling space in the joint between the support and the periodontal part, the cooling performance is improved at the joint between the support and the periodontal part, and at the same time, the heat generation of the electric device is reduced, thereby improving the efficiency and output of the electric device. provides an effect.

In addition, by forming a slot with an open periphery or a slot with a closed periphery to wind the coil in the periodontal region, it is possible to concentrate magnetic flux in the periodontal region and at the same time improve the support rigidity of the periodontal region.

In addition, by having a plurality of teeth spaced apart from the support portion as the periodontal portion, the size of the periodontal portion is reduced, thereby providing the effect of reducing the expensive periodontal portion installation cost.

In addition, by extending and connecting some surfaces of the teeth of the periodontal part to each other and configuring the periphery of the slot in the periodontal part in a closed shape, it is possible to improve the support rigidity of the periodontal part.

1 is a block diagram showing an iron core structure of a conventional electric device.
2 is a block diagram showing an iron core structure of an electric device according to an embodiment of the present invention.
3 is a block diagram showing a slot of an iron core structure of an electric device according to an embodiment of the present invention.
Figure 4 is a block diagram showing another example of the periodontal portion of the iron core structure of the electric device according to an embodiment of the present invention.
5 is a block diagram showing another example of a slot of an iron core structure of an electric device according to an embodiment of the present invention.
6 is a block diagram showing another installation example of an iron core structure of an electric device according to an embodiment of the present invention.
7 to 10 are block diagrams showing various coupling portions between the support portion and the periodontal portion of the iron core structure of the electric device according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

Figure 2 is a block diagram showing the iron core structure of an electric device according to an embodiment of the present invention, Figure 3 is a block diagram showing a slot of the iron core structure of the electric machine according to an embodiment of the present invention, Figure 4 is this It is a block diagram showing another example of the periodontal part of the iron core structure of the electric device according to an embodiment of the present invention, and Figure 5 is a block diagram showing another example of the slot of the iron core structure of the electric machine according to an embodiment of the present invention. , FIG. 6 is a block diagram showing another installation example of an iron core structure of an electric device according to an embodiment of the present invention, and FIGS. 7 to 10 are a support part and periodontal portion of an iron core structure of an electric device according to an embodiment of the present invention. It is a configuration diagram showing the various binding sites between the stomach.

2 to 6 , the iron core structure of the electric machine according to the present embodiment includes a support portion 10 and a periodontal portion 20, and a stator 100 and a rotor 200 of the electric machine. It is an iron core structure of an electric device installed in at least one of them.

It goes without saying that various electric devices using iron cores, such as a rotary motor, a linear motor, a rotary generator, and a linear generator, may be used as the electrical device of this embodiment.

The support part 10 is a support member that supports to maintain the shape of the iron core, and consists of an iron core made of iron in the shape of a circular motor and a rotary generator or a linear iron of a linear motor and a linear generator, and a support piece 11 . and a coupling groove (12).

The support piece 11 is an iron core member made of a circular iron of a rotary motor and a rotary generator or a linear iron material of a linear motor and a linear generator. The support piece 11 is a plurality of plates having a circular or linear cross section The members are stacked to form a circular or linear laminated iron core.

The coupling groove 12 is a coupling part formed on one surface of the support part 10 to couple the periodontal part 20 to the support part 10, and is formed as a groove part concavely cut in one side of the support piece 11. Here, the protrusion of the periodontal part 20 is fitted and coupled.

The periodontal part 20 is an iron core member that is coupled to contact the entire circumferential surface of the support part 10 so that the magnetic flux is concentrated but the loss of magnetic flux is less than that of the support part 10, and the loss of magnetic flux is lower than the material of the support piece 11 It is preferable that it consists of few materials.

This periodontal part 20 is made of teeth 21 and engaging protrusions 22, and is made of an iron core member coupled to the support part 10 by a fitting coupling between the grooves and the protrusions. By reducing the size, it is possible to reduce the manufacturing cost of the iron core and at the same time reduce the loss of magnetic flux, thereby improving the efficiency and output of electrical equipment.

The tooth 21 is an iron core member made of a material of the periodontal shape of a circular shape of a rotary motor and a rotary generator or a linear shape of a linear motor and a linear generator. The members are stacked to form a circular or linear iron core member.

In addition, the tooth 21 is made of a material with less magnetic flux loss than the iron material of the support piece 11, thereby reducing the loss of magnetic flux than the support piece 11 of the support part 10 to improve the efficiency and output of the electric device. be able to

The coupling protrusion 22 is a coupling part formed on one surface of the periodontal part 20 in order to couple the periodontal part 20 to the support part 10, and is formed as a convex protrusion formed on one side of the tooth 21 It is fitted and coupled to the groove portion of the support portion (10).

As shown in FIGS. 7 to 9, the coupling protrusion 22 is a chain-like coupling protrusion 22a, a chain group and a "T"-shaped coupling protrusion 22b, and a "T"-shaped coupling protrusion. Of course, it is also possible to have various shapes, such as (22c).

In addition, at the coupling site between the coupling groove 12 of the support 10 and the coupling protrusion 22 of the periodontal part 20, a "T"-shaped coupling protrusion 22d with a cut end is formed, or Of course, it is also possible that the end of the coupling groove portion is formed to extend in the longitudinal direction as shown in FIG. 10 to form a space 23 for cooling the iron core.

In addition, the teeth 21 of the periodontal portion 20, the cut-out portions to form a plurality of slots 30 for winding the coil is preferably formed spaced apart at equal intervals.

This slot 30, as shown in FIG. 2, is made of an open shape with a part of the periphery open, or as shown in FIG. 3, it is also possible to have a closed shape with a perimeter closed.

In addition, as shown in FIG. 4 , the periodontal portion 20 may be formed of a plurality of teeth spaced apart from the support portion 10 at equal intervals. A plurality of slots 30 for winding the coil are formed in the spaced space between the teeth of each of the periodontal portions 20 .

As shown in FIG. 5, since some of the teeth of the periodontal portion 20 extend to each other, the slot 30 formed between these periodontal portions 20 may have a closed shape with a closed periphery. am.

As shown in FIG. 6 , another installation example of the iron core structure of the electric machine according to the present embodiment includes the support part 10 and the periodontal part 20 , and is installed in the rotor 200 of the electric machine. It is the iron core structure of the device.

As such, the support portion 10 and the periodontal portion 20 installed on the rotor 200 are formed in the same shape as the support portion 10 and the periodontal portion 20 installed on the stator 100, and the support portion 10 and Since only the installation position of the periodontal part 20 is different, a detailed description will be omitted and only a different configuration will be described.

The support portion 10 of the rotor 200 is installed in the inner portion of the rotor 200 , and the periodontal portion 20 of the rotor 200 is installed in the outer portion of the rotor 200 . On the contrary, the support part 10 of the stator 100 is installed in the outer portion of the stator 100 , and the periodontal portion 20 of the stator 100 is installed in the inner portion of the stator 100 .

In addition, it is of course also possible that a plurality of rod-shaped iron core rods 220 made of aluminum or copper are inserted and installed at regular intervals in the periodontal portion 20 of the rotor 200 .

As such, the support portion 10 and the periodontal portion 20 of the present embodiment are installed only in the stator 100 of the electric device, installed only in the rotor 200, or in both the stator 100 and the rotor 200. Of course, it is also possible to install each of them.

In addition, the support portion 10 and the periodontal portion 20 of this embodiment are installed in at least one of the stator 100 and the rotor 200 of the rotary motor and the rotary generator, or the stator 100 of the linear motor and the generator. ) and it is of course also possible to be installed in at least one of the rotor 200.

As described above, according to the present invention, the iron core of the electric device is configured to be coupled to the support part and the periodontal part separately, and the loss of magnetic flux is reduced in the periodontal part where the magnetic flux is concentrated, thereby reducing the loss of magnetic flux of the electric device at a low price. At the same time, it provides the effect of improving the efficiency and output of electrical equipment.

In addition, by using a material having less loss of magnetic flux than the iron core of the support part only in the periodontal portion, it is possible to reduce the manufacturing cost of the entire iron core of the electric device.

In addition, since the support portion and the periodontal portion are coupled by the fitting of the groove and the protrusion, it is possible to facilitate the coupling between the support portion and the periodontal portion and at the same time improve the engagement support force between the support portion and the periodontal portion.

In addition, by forming a cooling space in the joint between the support and the periodontal part, the cooling performance is improved at the joint between the support and the periodontal part, and at the same time, the heat generation of the electric device is reduced, thereby improving the efficiency and output of the electric device. provides an effect.

In addition, by forming a slot with an open periphery or a slot with a closed periphery to wind the coil in the periodontal region, it is possible to concentrate magnetic flux in the periodontal region and at the same time improve the support rigidity of the periodontal region.

In addition, by having a plurality of teeth spaced apart from the support portion as the periodontal portion, the size of the periodontal portion is reduced, thereby providing the effect of reducing the expensive periodontal portion installation cost.

In addition, by extending and connecting some surfaces of the teeth of the periodontal part to each other and configuring the periphery of the slot in the periodontal part in a closed shape, it is possible to improve the support rigidity of the periodontal part.

The present invention described above can be embodied in various other forms without departing from the technical spirit or main characteristics thereof. Accordingly, the above embodiments are merely examples in all respects and should not be construed as limiting.

10: support 20: periodontal region
30: slot

Claims (9)

As an iron core structure of an electric machine installed in at least one of the stator 100 and the rotor 200 of the electric machine,
a support portion 10 that supports to maintain the shape of the iron core; and
The periodontal portion 20 is coupled to contact the entire circumference of the support portion 10, the magnetic flux is concentrated, the loss of magnetic flux is less than that of the support portion 10;
The support part 10 is made of a layered iron core, and the periodontal part 20 is made of a material that loses less magnetic flux than the layered iron core,
A slot 30 for winding the coil is formed in the periodontal portion 20,
The slot (30) is an iron core structure of an electric machine, characterized in that it has an open shape with an open periphery or a closed shape with a closed periphery. delete The method of claim 1,
The iron core structure of an electric machine, characterized in that the support part and the periodontal part are coupled by fitting of the groove and the protrusion. 4. The method of claim 3,
The support part and the periodontal part, the iron core structure of an electric device, characterized in that the spaced space for cooling is formed in the coupling portion between the groove and the protrusion. delete delete delete The method of claim 1,
The periodontal portion is an iron core structure of an electric machine, characterized in that it consists of a plurality of teeth spaced apart from the support portion at equal intervals. 9. The method of claim 8,
The iron core structure of an electric machine, characterized in that the teeth have some surfaces extending from each other, and the slot formed between the teeth has a closed shape with a closed periphery.

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